package mindustry.maps.generators;

import arc.*;
import arc.graphics.g2d.*;
import arc.math.geom.*;
import arc.struct.*;
import arc.struct.ObjectIntMap.*;
import arc.util.*;
import arc.util.noise.*;
import mindustry.content.*;
import mindustry.ctype.*;
import mindustry.game.*;
import mindustry.gen.*;
import mindustry.graphics.g3d.*;
import mindustry.type.*;
import mindustry.type.Weather.*;
import mindustry.ui.*;
import mindustry.world.*;

import static mindustry.Vars.*;

public abstract class PlanetGenerator extends BasicGenerator implements HexMesher{
    protected static @Nullable ItemSeq tmpItems;

    public int baseSeed = 0;
    public int seed = 0;

    protected @Nullable Sector sector;

    public void generateSector(Sector sector){

    }

    public void onSectorCaptured(Sector sector){

    }

    public void onSectorLost(Sector sector){

    }

    public void beforeSaveWrite(Sector sector){

    }

    public void getLockedText(Sector hovered, StringBuilder out){
        out.append("[gray]").append(Iconc.lock).append(" ").append(Core.bundle.get("locked"));
    }

    public @Nullable TextureRegion getLockedIcon(Sector hovered){
        return (hovered.preset == null && !hovered.planet.allowLaunchToNumbered ? null : Fonts.getLargeIcon("lock"));
    }

    /** @return whether to allow landing on the specified procedural sector */
    public boolean allowLanding(Sector sector){
        return sector.planet.allowLaunchToNumbered && (sector.hasBase() || sector.near().contains(Sector::hasBase));
    }

    public @Nullable Sector findLaunchCandidate(Sector destination, @Nullable Sector selected){
        if(!destination.allowLaunchLoadout() && destination.preset != null){
            if(tmpItems == null) tmpItems = new ItemSeq();
            tmpItems.clear();

            var rules = destination.preset.generator.map.rules();
            for(var stack : rules.loadout){
                if(stack.item.isOnPlanet(destination.planet)){
                    tmpItems.add(stack.item, stack.amount);
                }
            }

            //currently played (selected) sector has all the resources
            if(selected != null && selected.planet == destination.planet && selected.hasBase() && selected.items().has(tmpItems)){
                return selected;
            }else{
                //find the closest sector that has resources (ranked by distance, not item quantity)
                return destination.planet.sectors.min(s -> s.hasBase() && s.items().has(tmpItems), s -> s.tile.v.dst(destination.tile.v));
            }
        }else{
            Sector launchSector = selected != null && selected.planet == destination.planet && selected.hasBase() ? selected : null;
            //directly nearby.
            if(destination.near().contains(launchSector)) return launchSector;

            Sector launchFrom = launchSector;
            if(launchFrom == null || destination.preset == null){
                //TODO pick one with the most resources
                launchFrom = destination.near().find(Sector::hasBase);
                if(launchFrom == null && destination.preset != null){
                    if(launchSector != null) return launchSector;
                    launchFrom = destination.planet.sectors.min(s -> !s.hasBase() ? Float.MAX_VALUE : s.tile.v.dst2(destination.tile.v));
                    if(!launchFrom.hasBase()) launchFrom = null;
                }
            }

            return launchFrom;
        }
    }

    /** @return whether to allow landing on the specified procedural sector */
    public boolean allowAcceleratorLanding(Sector sector){
        return sector.planet.allowLaunchToNumbered;
    }

    public void addWeather(Sector sector, Rules rules){

        //apply weather based on terrain
        ObjectIntMap<Block> floorc = new ObjectIntMap<>();
        ObjectSet<UnlockableContent> content = new ObjectSet<>();

        for(Tile tile : world.tiles){
            if(world.getDarkness(tile.x, tile.y) >= 3){
                continue;
            }

            Liquid liquid = tile.floor().liquidDrop;
            if(tile.floor().itemDrop != null) content.add(tile.floor().itemDrop);
            if(tile.overlay().itemDrop != null) content.add(tile.overlay().itemDrop);
            if(liquid != null) content.add(liquid);

            if(!tile.block().isStatic()){
                floorc.increment(tile.floor());
                if(tile.overlay() != Blocks.air){
                    floorc.increment(tile.overlay());
                }
            }
        }

        //sort counts in descending order
        Seq<Entry<Block>> entries = floorc.entries().toArray();
        entries.sort(e -> -e.value);
        //remove all blocks occurring < 30 times - unimportant
        entries.removeAll(e -> e.value < 30);

        Block[] floors = new Block[entries.size];
        for(int i = 0; i < entries.size; i++){
            floors[i] = entries.get(i).key;
        }

        //bad contains() code, but will likely never be fixed
        boolean hasSnow = floors.length > 0 && (floors[0].name.contains("ice") || floors[0].name.contains("snow"));
        boolean hasRain = floors.length > 0 && !hasSnow && content.contains(Liquids.water) && !floors[0].name.contains("sand");
        boolean hasDesert = floors.length > 0 && !hasSnow && !hasRain && floors[0] == Blocks.sand;
        boolean hasSpores = floors.length > 0 && (floors[0].name.contains("spore") || floors[0].name.contains("moss") || floors[0].name.contains("tainted"));

        if(hasSnow){
            rules.weather.add(new WeatherEntry(Weathers.snow));
        }

        if(hasRain){
            rules.weather.add(new WeatherEntry(Weathers.rain));
            rules.weather.add(new WeatherEntry(Weathers.fog));
        }

        if(hasDesert){
            rules.weather.add(new WeatherEntry(Weathers.sandstorm));
        }

        if(hasSpores){
            rules.weather.add(new WeatherEntry(Weathers.sporestorm));
        }
    }

    protected void genTile(Vec3 position, TileGen tile){

    }

    @Override
    protected float noise(float x, float y, double octaves, double falloff, double scl, double mag){
        Vec3 v = sector.rect.project(x, y);
        return Simplex.noise3d(0, octaves, falloff, 1f / scl, v.x, v.y, v.z) * (float)mag;
    }

    /** @return the scaling factor for sector rects. */
    public float getSizeScl(){
        return 3200;
    }

    public int getSectorSize(Sector sector){
        int res = (int)(sector.rect.radius * getSizeScl());
        return res % 2 == 0 ? res : res + 1;
    }

    public void generate(Tiles tiles, Sector sec, WorldParams params){
        this.tiles = tiles;
        this.seed = params.seedOffset + baseSeed;
        this.sector = sec;
        this.width = tiles.width;
        this.height = tiles.height;
        this.rand.setSeed(sec.id + params.seedOffset + baseSeed);

        TileGen gen = new TileGen();
        for(int y = 0; y < height; y++){
            for(int x = 0; x < width; x++){
                gen.reset();
                Vec3 position = sector.rect.project(x / (float)tiles.width, y / (float)tiles.height);

                genTile(position, gen);
                tiles.set(x, y, new Tile(x, y, gen.floor, gen.overlay, gen.block));
            }
        }

        generate(tiles, params);
    }
}
